Synthesis and evaluation of antitumor activities of 4-selenopyrimidine derivatives

Abstract

Pyrimidine antimetabolic agents are the essential drugs in treatment of various tumors. Novel synthesis and biological evaluation of the pyrimidine derivatives incorporating selenium element and amino acid carrier as potential antitumor agents have not been tried and studied. Based on the biological significance of pyrimidine structure, these two additional elemental fragments maybe enhance the antitumor effect and reduce toxic side effects of pyrimidine agents. The aim of this paper is to synthesis a series of 4-selenopyrimidine derivatives in order to find more potent lead compounds against cancer. In this study, 12 new 4-selenopyrimidine derivatives that are unstable in acidic solutions but very stable in alkaline and neutral solutions avoiding light were synthesized, and the antitumor activities on HepG2 cell lines of these compounds were evaluated by MTT assay. The results have shown that these compounds could reduce the proliferation of HepG2 cells in a dose-dependent fashion, and the inhibitory activity of compounds a6 was greater than that of positive control 5-fluorouracil (5-FU), the IC50 for a6 was 3.63 μM. In the comprehensive analysis of the structure–activity relationship, we could draw the antitumor effect of selenouracil derivatives is stronger than those of selenothymine derivatives. These results suggest that the substituent groups of selenium element and amino acid on the pyrimidine derivatives are vital for their antitumor activities on HepG2 cells.